DE631550C - Device for protecting transformers against overload - Google Patents

Description

Device for protecting transformers against overload There are Devices for the protection of transformers against overload known that as a result that of the overcurrent in the space between the windings. developed warmth Interrupt the contact in the primary circuit.

In a preferred embodiment of these devices, in the space between the windings arranged a metal strip, which by means of a thermally conductive connection connected to a soldering point in the primary circuit is. Since in most cases the soldering point is only subjected to tension, the inconvenience that emerged in practice was that the contact was in the primary circuit not only as a result of the heat developed by the overcurrent, but also during mechanical vibrations of the solder joint was interrupted, even if the transformer was out of order.

The purpose of the invention is to make such improvements that the said problem can no longer occur.

In the device according to the invention is in the space between the Windings arranged a metal strip, its outstanding from the transformer End is bifurcated and has one or more recesses in which one in the primary circuit lying body made of easily meltable material is held in place by spring force. This design ensures that the fusible part of the protective device mainly stressed on thrust and consequently performed much more powerfully than when using a solder joint. The above-mentioned risk of breaking contact due to mechanical vibrations is with the correct choice of the dimensions of the melting body locked out.

Another advantage of the device according to the invention is that easy interchangeability of the melting body. If the transformer heats up to over at a certain temperature the melting body becomes soft and finally melts so that the primary circuit is interrupted. The device can then go through Insertion of a new melting body in the recesses of the strip ready for operation again be made. In a preferred embodiment of the invention, there is Metal strip consisting of a strip folded in its transverse direction, whose from the transformer protruding leg ends each have a recess, during an or both leg ends bent at this point are that they are some distance from each other.

The expediently cylindrically shaped melting body is in this Embodiment supported at both ends in the recesses and with the help a coil spring, one end of which around the part lying between the legs of the body is lying around, held in the recesses.

In order to increase the amount of heat that is dissipated by conduction from the The strip passes over to the melting body, the strip, the melting body, is expedient. and the spring switched one after the other in the primary circuit, so that the in this Share heat developed by the load current for heating. of the melting body contributes. The spring, which is kept tensioned by the melting body in the normal state, can increase when the transformer is heated above the softening temperature of the melting body relax, ensuring a safe interruption of the primary circuit of the transformer is brought about.

An embodiment of the invention is shown in the drawing, for example shown. FIG. I is a section through one with a device according to FIG Invention equipped transformer.

FIG. 2 shows a section along the line II-II of FIG 3 and 4 show two views of an individual part of the temperature fuse.

In FIGS. I and: 2, i denotes the transformer core and 2 one Made of insulating material cylinder on which the primary winding 3 and the secondary winding 4 are arranged. Of course, in addition to the windings mentioned, depending There are other windings from the device in which the transformer is used be. In the space between the windings is a folded one in its transverse direction Metal strip 6 is arranged, which is insulated from the windings by a sheath 5 is. As can be seen from Figures 3 and 4, one of the leg ends is this strip bent at 7 so that the legs at this point a certain distance have from each other. The legs each have a recess 8 at this end, and through these recesses the ends 9 and 10 of a body easily grip fusible material through it. To the part located between the legs i i this Fusible body is the end 12 of a helical spring 13 laid empty, the other The end 14 is attached to a support r5 which is insulated on the core. Through this the melting body is held in the recesses 8. In order to soften the To facilitate the shearing off of the melting body by the action of the helical spring, it is advantageous to make the ends of the fusible body somewhat thinner than those between the To make the legs of the strip lying part. This at the same time prevents that the body shifted in the direction of the sea as a result of mechanical vibrations will.

As can be seen from Figure 2, the primary winding is the strip 6, the melting body i i and the spring 13 connected in series so that the melting body not only due to the heat generated between the primary and secondary winding, but also by the developed as a result of the passage of the primary current Electricity heat is heated. When heated to a level that is harmful to the transformer Temperature melts the body ii so that the end 12 of the spring is free and the latter can relax. The one from your strip and the melting body and the circuit formed by the spring is consequently interrupted in a safe manner. The device can be made ready for operation again that a new one Melt body i i: attached in the recesses 8 and the spring end 12 again wrapped around the part of the fusible body lying between the legs of the strip will. To prevent the spring from jumping off with the transformer core comes into contact, which could lead to a short circuit, this spring is from surrounded by a sleeve 16 made of insulating material, from which it is also in the relaxed state not sticking out.

Claims (3)

PATENT CLAIMS: i. Device for protecting transformers against overload with a metal strip arranged between the windings, which interrupts a primary circuit by means of the heat developed by the overcurrent in the space between the windings, characterized in that the metal strip protruding from the transformer is forked at its end is and has recesses in which a melting body lying in the primary circuit is held against the action of a spring. 2. Device according to claim i, characterized in that the melting body (9, io, ii) is cylindrical and is supported at both ends in the Aussparuhgen (8) in which he is with help a coil spring (i3) is held, one end (1z) around the between the leg ends lying part (i i) of the body (9, i o, i i) is laid around. 3. Device according to claim i or a, characterized in that the strip (6), the melting body (9, io, ii) and the spring (i3) one behind the other in the primary circuit are switched on.